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Huawei S5720-32X-EI-24S-AC switch 24x SFP 4x GE 4x SFP+ AC power supply + RPS
Produttore: Huawei
Codice prodotto: HUA-S5720-32X-E-24SA
Numero di catalogo: 7238
Garanzia (mesi):
Prezzo
38 229,41
47 022,17IVA inclusa
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Descrizione

The S5720-EI series enhanced Gigabit Ethernet switches are switches that provide flexible GE access ports (including optical, electrical, and combo ports) and 10GE uplink ports. Built on next-generation high-performance processors and Huawei Versatile Routing Platform (VRP), the S5720-EI provides larger table sizes and higher hardware processing capabilities than equivalent switches. Besides, it provides comprehensive service processing capabilities, enhanced security control, and mature IPv6 features, and supports MACsec, intelligent stack (iStack), flexible Ethernet networking, and easy operations and maintenance (O&M). With all these advantages, the S5720-EI is widely used for access/aggregation in enterprise campus networks or gigabit access in data center networks.

  • 24 Gig SFP ports, 4 10/100/1000 Ethernet ports, 4 10GE SFP+ ports, 2 QSFP+ dedicated stack ports
  • AC power supply, supporting RPS, power socket on the front panel
  • Forwarding performance: 102 Mpps
  • Switching capacity: 598 Gbit/s

Card Types

The S5720-EI (C series and PC series) provides one extended slot for ES5D21X02S01 (2-port 10GE SFP+ rear interface card) for upstream connections, or ES5D21VST000 (dedicated stack card with two QSFP+ ports) for stack connection.

Easy Operations and Maintenance (O&M)

The S5720-EI models with power sockets on the front panel can be installed in a 300 mm deep cabinet and maintained from the front panel. This simplifies equipment O&M and allows more flexible cabinet deployment. The small-sized cabinets can be placed against a wall or back to back to save space in the equipment room.

The S5720-EI allows management personnel to remotely switch on the SYS indicator on the front panel. After configuration commands are used, the SYS indicator quickly blinks within a certain period, helping the management personnel locate the device in the equipment room quickly and efficiently.

The S5720-EI supports Super Virtual Fabric (SVF), which virtualizes the "Core/Aggregation switches + Access switches + APs" structure into a single logical device. The S5720-EI enables the simplest network management solution in the industry. It allows plug-and-play of access switches and APs. In addition, the S5720-EI supports service configuration templates. The templates are configured on core devices and automatically delivered to access devices, enabling centralized control, simplified service configuration, and flexible configuration modification. The S5720-EI functions as a client in an SVF system.

The S5720-EI supports EasyOperation, a solution that provides zero-touch deployment, replacement of faulty devices without additional configuration, USB-based deployment, batch configuration, and batch remote upgrade. The EasyOperationS5720-EI Series Enhanced Gigabit Switches 12 solution facilitates device deployment, upgrade, service provisioning, and other management and maintenance operations, greatly reducing O&M costs. The S5720-EI can be managed using Simple Network Management Protocol (SNMP) v1/v2c/v3, command line interface (CLI), web-based network management system, or Secure Shell (SSH) V2.0. Additionally, it supportsremote network monitoring (RMON), multiple log hosts, port traffic statistics collection, and network quality analysis, which facilitate network optimization and reconstruction.

The S5720-EI supports Two-Way Active Measurement Protocol (TWAMP) to accurately check any IP link and obtain the
entire network's IP performance. This protocol eliminates the need of using a dedicated probe or a proprietary protocol.

Intelligent O&M

The S5720-EI provides telemetry technology to collect device data in real time and send the data to Huawei campus network analyzer CampusInsight. The CampusInsight analyzes network data based on the intelligent fault identification algorithm, accurately displays the real-time network status, effectively demarcates and locates faults in a timely manner, and identifies network problems that affect user experience, accurately guaranteeing user experience.

The S5720-EI supports a variety of intelligent O&M features for audio and video services, including the enhanced Media Delivery Index (eMDI). With this eDMI function, the switch can function as a monitored node to periodically conduct statistics and report audio and video service indicators to the CampusInsight platform. In this way, the CampusInsight platform can quickly demarcate audio and video service quality faults based on the results of multiple monitored nodes.

Multiple Reliability Mechanisms

The S5720-EI supports intelligent stack (iStack). This technology can virtualize up to nine physical switches into a single logical switch. Member switches in a stack implement redundancy backup to improve device reliability and use inter-device link aggregation to improve link reliability. iStack ensures path failover within 200 milliseconds and implements hitless master/backup switchover. iStack provides strong network expansion capability, enables easy increase of ports, bandwidth, and processing capacity of a stack, and simplifies configuration and management.

The S5720-EI is equipped with two removable power supplies that can work in 1+1 redundancy backup mode. Mixed installation of AC and DC power supplies is supported, allowing for flexible configuration of AC and DC power supplies according to service requirements. The S5720-EI provides two removable fan modules. The fan speed can be adjusted according to working temperatures of the device, improving device reliability.

In addition to traditional STP, RSTP, and MSTP, the S5720-EI supports Huawei-developed Smart Ethernet Protection (SEP) technology and the latest Ethernet Ring Protection Switching (ERPS) standard. SEP is a ring protection protocol specific to the Ethernet link layer, and applies to various ring network topologies, such as open ring topology, closed ring topology, and cascading ring topology. This protocol is reliable and easy to maintain, and implements fast protection switching within 50 ms. ERPS is defined in ITU-T G.8032. It implements millisecond-level protection switching based on traditional Ethernet MAC and bridging functions.

The S5720-EI supports Smart Link and Virtual Router Redundancy Protocol (VRRP), which implement backup of uplinks. One S5720-EI switch can connect to multiple aggregation switches through multiple links, significantly improving reliability of access devices.

In addition, the S5720-EI provides multiple connection fault detection mechanisms, including Ethernet OAM (IEEE 802.3ah/802.1ag/ITU Y.1731) and Bidirectional Forwarding Detection (BFD).

Enhanced Service Processing Capability and Comprehensive Security Control Mechanisms

The S5720-EI supports the multi-VPN-instance CE (MCE) function, which allows connection of users in different VPNs. The switch supports large multi-instance routing tables to isolate users in different VPNs. Users in multiple VPNs connect to a provider edge (PE) device through the same physical port on the switch, which reduces the cost on VPN network deployment. The S5720-EI supports Multiprotocol Label Switching (MPLS) L3VPN, MPLS L2VPN (VPWS\VPLS), MPLS-TE, and MPLS QoS. It is one of a few cost-effective MPLS-capable fixed switches.

With enhanced network admission control (NAC) functions, the S5720-EI supports 802.1X authentication, MAC address authentication, Portal authentication, and hybrid authentication, and can dynamically delivery user policies such as VLANs, QoS policies, and access control lists (ACLs). It also supports user management based on user groups. You can specify authentication-free IP network segments and enable redirection of HTTP connection requests to realize fast deployment of clients. If clients do not support HTTP access, the S5720-EI can trigger Portal authentication for the clients.

The S5720-EI provides a series of mechanisms to defend against DoS and user-targeted attacks. DoS attacks are targeted at switches and include SYN flood, Land, Smurf, and ICMP flood attacks. User-targeted attacks include bogus DHCP server attacks, IP/MAC address spoofing, DHCP request flood, and change of the DHCP CHADDR value.S5720-EI Series Enhanced Gigabit Switches 13

The S5720-EI sets up and maintains a DHCP snooping binding table, and discards the packets that do not match the table entries. You can specify DHCP snooping trusted and untrusted ports to ensure that users connect only to the authorized DHCP server.

The S5720-EI supports strict ARP learning, which protects a network against ARP spoofing attacks to ensure normal network access.

Enhanced QoS Control Mechanism

The S5720-EI provides excellent QoS capabilities and supports queue scheduling and congestion control algorithms. Additionally, it adopts innovative priority queuing and multi-level scheduling mechanisms to implement fine-grained scheduling of data flows, meeting service quality requirements of different user terminals and services.

The S5720-EI implements complex traffic classification based on packet information, such as the 5-tuple, IP preference, ToS, DSCP, IP protocol type, ICMP type, TCP source port, VLAN ID, Ethernet protocol type, and CoS. ACLs can be applied to the inbound or outbound direction of a port.

The S5720-EI supports flow-based two-rate three-color CAR. Each port supports eight priority queues, multiple queue scheduling algorithms, such as WRR, DRR, SP, WRR+SP, and DRR+SP, and WRED that is a congestion avoidance algorithm. All of these features ensure high-quality voice, video, and data services

Mature IPv6 Technologies

The S5720-EI uses the mature, stable VRP software platform and supports IPv4/IPv6 dual stacks, IPv6 routing protocols (RIPng, OSPFv3, BGP4+, and IS-ISv6), and IPv6 over IPv4 tunnels (including manual, 6-to-4, and ISATAP tunnels). With these IPv6 features, the S5720-EI can be deployed on a pure IPv4 network, a pure IPv6 network, or a shared IPv4/IPv6 network, helping achieve IPv4-to-IPv6 transition.

OPS

Open Programmability System (OPS) is an open programmable system based on the Python language. IT administrators can program the O&M functions of a switch through Python scripts to quickly innovate functions and implement intelligent O&M.

Specification:

S5720-32X-EI-24S-AC
Fixed port
GE port

28

10GE port 4
Dedicated stack port 2
Management port
ETH Supported
Konsola (RJ45) Supported
Konsola (mini USB) Supported
USB USB 2.0
Memory
Frequency 1 GHz
Cores 2
Pami??
Memory (RAM) 2 GB
Flash memory Hardware: 512 MB, of which 340 MB is available for users
Power supply system
Power supply type AC (fixed)
Power supply redundancy

Built-in single power supply and RPS in 6:1 mode

RPS Supported
Rated voltage range

100 - 240 V AC

50/60 Hz

Maximum voltage range

90 - 264 V AC

47 - 63 Hz

Maximum input current 3 A
Maximum power consumption of the device

58.9 W

Power consumption in the case of 30% traffic load

55.46 W

Heat dissipation system
Heat dissipation mode Air-cooled heat dissipation and intelligent fan speed adjustment
Number of fan modules 1
Airflow Air flows in from the left and right sides as well as the front panel, and  exhausts from the rear panel
Maximum heat dissipation of the device (BTU/hour)

201

Physical specifications
Chassis dimensions (W x D x H, mm) 442 x 220 x 43.6 (front-access)
Chassis height 1 U
Chassis weight (full configuration weight,
including weight of packaging materials)
4.44 kg
Environment parameters

Long-term operating temperature

0-1800 m: 0°C to 45°C


1800-5000 m: The operating temperature decreases 1°C every time the altitude  increases 220 m

Storage temperature -40°C - 70°C
Relative humidity 5%–95% (noncondensing)
Noise under normal temperature (sound power) 49.3 dB(A)
Noise under high  temperature (sound power) 69.2 dB(A)
Noise under normal temperature (sound
pressure)
35.9 dB(A)
Surge protection specification (RJ45 service port) ±8 kV
MTBF (year)

82.54

Software
Ethernet features
Ethernet basics

Full-duplex, halfduplex, and autonegotiation

Rate autonegotiation on an interface

Flow control on an interface

Jumbo frames

Link aggregation

Load balancing among links of a trunk

Transparent transmission of Layer 2 protocol packets

Device Link Detection Protocol (DLDP)

Link Layer Discovery Protocol (LLDP)

Link Layer Discovery Protocol-Media Endpoint Discovery
(LLDP-MED)

Interface isolation

Broadcast traffic suppression on an interface

Multicast traffic suppression on an interface

Unknown unicast traffic suppression on an interface

VLAN broadcast traffic suppression

VLAN multicast traffic suppression

VLAN unknown unicast traffic suppression

VLAN

VLAN: 4094

VLANIF: 1024

Access mode

Trunk mode

Hybrid mode

QinQ mode

Default VLAN

VLAN assignment based on interfaces

VLAN assignment based on protocols

VLAN assignment based on IP subnets

VLAN assignment based on MAC addresses

VLAN assignment based on MAC address + IP address

VLAN assignment based on MAC address + IP address + interface number

Adding double VLAN tags to packets based on interfaces

Super-VLAN

Super-VLAN specification: 256

Sub-VLAN

Sub-VLAN specification: 1K

VLAN mapping

Selective QinQ

MUX VLAN

Voice VLAN

Guest VLAN

GVRP

GARP

GVRP

VCMP VCMP
MAC

MAC address 64K

Automatic learning of MAC addresses

Automatic aging of MAC addresses

Static, dynamic, and blackhole MAC address entries

Interface-based MAC address learning limiting

Sticky MAC

MAC address flapping detection

Configuring MAC address learning priorities for interfaces

MAC address spoofing defense

Port bridge

ARP

Static ARP

Dynamic ARP

ARP entry: 12K

ARP aging detection

Intra-VLAN proxy ARP

Inter-VLAN proxy ARP

Routed proxy ARP

Multi-egress-interface ARP

Ethernet loop protection
MSTP

STP

RSTP

MSTP

VBST

BPDU protection

Root protection

Loop protection

Defense against TC BPDU attacks

Loopback detection Loop detection on an interface
SEP SEP
Smart Link

Smart Link

Smart Link multiinstance

Monitor Link

RRPP

RRPP

Single RRPP ring

Tangent RRPP ring

Intersecting RRPP ring

Hybrid networking of RRPP rings and other ring networks

ERPS

G.8032 v1

G.8032 v2

ERPS semi-ring topology

ERPS closed-ring topology

IPv4/IPv6 forwarding
IPv4 and unicast routing

IPv4 static routing

VRF

DHCP client

DHCP server

DHCP relay

DHCP policy VLAN

URPF check

Routing policies

IPv4 routes: 16K

RIPv1

RIPv2

OSPF

BGP

MBGP

IS-IS

Policy-based routing (PBR)

Multicast routing features

IGMPv1/v2/v3

PIM-DM

PIM-SM

MSDP

IPv4 multicast routes: 4K

IPv6 multicast routes: 2K

Multicast routing policies

RPF

IPv6 features

IPv6 protocol stack

ND

ND entry: 8K

ND snooping

DHCPv6 snooping

RIPng

DHCPv6 server

DHCPv6 relay

OSPFv3

BGP4+

IS-IS for IPv6

IPv6 routes: 8K

VRRP6

MLDv1/v2

PIM-DM for IPv6

PIM-SM for IPv6

IPv6 transition technology Pv6 manual tunneling
Layer 2 multicast
Layer 2 multicast features

IGMPv1/v2/v3 snooping

IGMP snooping proxy

MLD snooping

Multicast traffic suppression

Inter-VLAN multicast replication

MPLS i VPN
MPLS basic functions

LDP protocol

Double MPLS labels

Mapping from 802.1p priorities to EXP priorities in MPLS packets

Mapping from DSCP priorities to EXP priorities in MPLS packets

MPLS TE MPLS-TE tunnel establishment
VPN

MCE

GRE tunneling

GRE tunnel specification: 512

VLL

PWE3

VPLS

MPLS L3VPN

IPSec Efficient VPN

Device reliability
BFD

Single-hop BFD

BFD for static routes

BFD for OSPF

BFD for IS-IS

BFD for BGP

BFD for PIM

BFD for VRRP

Stacking

Stack card-based stacking

Stack card-based stacking bandwidth (Unidirectional)

Service interface-based stacking

Service interface-based stacking bandwidth (Unidirectional)

Maximum number of stacked devices

VRRP VRRP standard protocol
Ethernet OAM
EFM (802.3ah)

Automatic discovery of links

Link fault detection

Link troubleshooting

Remote loopback

CFM (802.1ag)

Software-level CCM

802.1ag MAC ping

802.1ag MAC trace

OAM association Association between 802.1ag and 802.3ah
Y.1731

Unidirectional delay and jitter measurement

Bidirectional delay and jitter measurement

QoS features
Traffic classification

Traffic classification based on ACLs

Configuring traffic classification priorities

Matching the simple domains of packets

Traffic behavior

Traffic filtering

Traffic policing (CAR)

Modifying the packet priorities

Modifying the simple domains of packets

Modifying the packet VLANs

Traffic shaping

Traffic shaping on an egress interface

Traffic shaping on queues on an interface

Congestion avoidance

Weighted Random Early Detection (WRED) on interfaces

WRED on queues

Tail drop

Congestion management

Priority Queuing (PQ)

Weighted Deficit Round Robin (WDRR)

PQ+WDRR

Weighted Round Robin (WRR)

PQ+WRR

HQoS HQoS
ACL
Packet filtering at Layer 2 to Layer 4

Number of rules per IPv4 ACL: 4K

Number of rules per IPv6 ACL: 2K

Basic IPv4 ACL

Advanced IPv4 ACL

Basic IPv6 ACL

Advanced IPv6 AC

Layer 2 ACL

User group ACL

User-defined ACL

Configuration and maintenance
Login and configuration management

Command line interface (CLI)-based configuration

Console terminal service

Telnet terminal service

SSH v1.5

SSH v2.0

SNMP-based NMS for unified configuration

Web page-based configuration and management

EasyDeploy (client)

EasyDeploy (commander)

SVF

Cloud management

OPS

File system

Directory and file management

File upload and download

Monitoring and maintenance

eMDI

Hardware monitoring

Log information output

Alarm information output

Debugging information output

Port mirroring

Flow mirroring

Remote mirroring

Energy saving

Version upgrade

Version upgrade

Version rollback

Security
ARP security

ARP packet rate limiting

ARP anti-spoofing

Association between ARP and STP

ARP gateway anti-collision

Dynamic ARP Inspection (DAI)

Static ARP Inspection (SAI)

Egress ARP Inspection (EAI)

IP security

ICMP attack defense

IPSG for IPv4

IPSG user capacity

IPSG for IPv6

IPSGv6 user capacity

Local attack defense CPU attack defense
MFF MFF
DHCP snooping

DHCP snooping

Option 82 function

Dynamic rate limiting for DHCP packets

Attack defense

Defense against malformed packet attacks

Defense against UDP flood attacks

Defense against TCP SYN flood attacks

Defense against ICMP flood attacks

Defense against packet fragment attacks

Local URPF

User access and authentication
AAA

Local authentication

Local authorization

RADIUS authentication

RADIUS authorization

RADIUS accounting

HWTACACS authentication

HWTACACS authorization

HWTACACS accounting

NAC

802.1X authentication

MAC address authentication

Portal authentication

Hybrid authentication

MACSec MACSec
Policy association Functioning as the access device
Network management
Network management

Ping

Tracert

NQA

NTP

sFlow

SNMP v1

SNMP v2c

SNMP v3

HTTP

HTTPS

RMON

RMON2

NETCONF/YANG

Interoperability

VLAN-based Spanning Tree (VBST)

Link-type Negotiation Protocol (LNP)

VLAN Central Management Protocol (VCMP)